M. V. Pereira scite author profile

The purpose of this work is to evaluate mechanical behavior of sisal fiber reinforced cement mortar. The composite material was produced from a mixture of sand, cement and water. Sisal fibers were added to the mixture in two different lengths. Mechanical characterization of the composite and the plain mortar was carried out using three point bend, compression and impact tests. Specimens containing parallel sided notches of different root radii were loaded in three point bending in order to determine the effect of the fibers on the material fracture toughness in the presence of discontinuities. According to the results, while fiber reinforcement leads to a decrease in compressive strength, J-integral calculations at maximum load for the different notch root radii have indicated, particularly for the case of long fibers, a significant superiority of the reinforced material in comparison with the plain cement mortar, in consistence with the impact test data.

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Roughness and its effects on flexural strength of dental yttria-stabilized zirconia ceramics

Amarante

Pereira

Souza

et al. 2019

Materials Science and Engineering: A

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On the prediction of fatigue crack retardation using Wheeler and Willenborg models

et al. 2007

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The aim of this work is to evaluate the applicability of the Wheeler and Willenborg models to predicting fatigue crack growth retardation in a flash welded structural steel subjected to a single overload during constant amplitude (CA) fatigue crack propagation test. Compact tension specimens, in different microstructural conditions, were subjected to a single overload at a given crack length during CA fatigue loading and crack growth rate da/dN vs. the stress intensity factor range deltaK was monitored, evidencing the retardation in crack propagation over an interval of crack length. The size of the delay zone as well as the number of the delay cycles were predicted by both the Wheeler and Willenborg models and then compared with the experimental data. Finally, the results are presented and discussed focusing on the comparison between the predictions made by the two models in the light of the experimental data

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The effects of prolonged thermal exposure on the mechanical properties and fracture toughness of C458 aluminum–lithium alloy

Ortiz

Brown

Abdelshehid

et al. 2006

Engineering Failure Analysis

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M. V. Pereira

Mechanical characterization of sisal reinforced cement mortar

On the Strengthening of Cement Mortar by Natural Fibers

Roughness and its effects on flexural strength of dental yttria-stabilized zirconia ceramics

On the prediction of fatigue crack retardation using Wheeler and Willenborg models

The effects of prolonged thermal exposure on the mechanical properties and fracture toughness of C458 aluminum–lithium alloy

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